Removable pluggable module pull tabs

ABSTRACT

Presented herein are removable pull tabs that are configured to be detachably coupled to pluggable modules in a manner that facilitates removal of the pull tabs from the module without disassembling the modules. In particular, a removable pull tab may comprise a handle and first and second substantially parallel attachment arms extending from the handle. The first and second attachment arms comprise first and second attachment mechanisms, respectively, disposed at a distal end of the respective attachment arm. The first and second attachment mechanisms are configured to detachably couple to first and second apertures, respectively, of a pluggable module.

PRIORITY CLAIM

This application claims priority to U.S. Provisional Application No. 62/956,355, filed Jan. 2, 2020. The entirety of this application is incorporated herein by reference.

TECHNICAL FIELD

The present disclosure relates to removable pull tabs for pluggable modules.

BACKGROUND

The sheer scale and size of large data centers, high-performance computing networks, and other systems can make the management of the equipment in those systems cumbersome. As such, some equipment may include visual aids/indicators or other identifying characteristics, such as logos, labels, etc., that ease the management burden of the equipment. For example, certain equipment may have a modular form that enables the equipment to be “plugged” into, and removed from, slot in, for example, a rack/cage. These equipment modules, sometimes referred to as “pluggable modules, may include a “pull tab” or “pull handle” having a particular appearance so that a technician can readily identify that the module is associated with, for example, a particular customer, wavelength, function, etc. However, when pluggable modules are reassigned to other purposes, it can be difficult, costly, and/or time-consuming to update the visual indicators of the items to properly reflect their reassignment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram depicting an isometric view of a pluggable module and pull tab, in accordance with an example embodiment.

FIG. 2 is a diagram depicting an isometric view of a pull tab, in accordance with an example embodiment.

FIG. 3 is a diagram depicting an isometric view of a pull tab with interior details shown, in accordance with an example embodiment.

FIG. 4 is a diagram depicting an attachment mechanism of a pull tab, in accordance with an example embodiment.

FIG. 5 is a diagram depicting view of a pull tab and a slide of a pluggable module with interior details shown, in accordance with an example embodiment.

FIG. 6A is a diagram depicting removal of a pull tab with a removal tool, in accordance with an example embodiment.

FIG. 6B is a diagram depicting removal of a pull tab with a removal tool, in accordance with another example embodiment.

FIG. 7A is a diagram depicting an isometric view of a slide of a pluggable module and a pull tab, in accordance with an example embodiment.

FIG. 7B is a diagram depicting an isometric view of a slide of a pluggable module and a pull tab, in accordance with an example embodiment.

FIG. 8 is a diagram depicting an isometric view of a slide of a pluggable module and a pull tab with interior details shown, in accordance with an example embodiment.

FIG. 9A is a diagram depicting a side view of a slide of a pluggable module and a pull tab, in accordance with an example embodiment.

FIG. 9B is a diagram depicting a side view of a slide of a pluggable module and a pull tab, in accordance with an example embodiment.

FIG. 10 is a flow chart depicting a method of removing a pull tab from a pluggable module, in accordance with an embodiment of the present invention.

DESCRIPTION OF EXAMPLE EMBODIMENTS Overview

Presented herein are removable pull tabs that are configured to be detachably coupled to pluggable modules in a manner that facilitates removal of the pull tabs from the module without disassembling the modules. In particular, a removable pull tab may comprise a handle and first and second substantially parallel attachment arms extending from the handle. The first and second attachment arms comprise first and second attachment mechanisms, respectively, disposed at a distal end of the respective attachment arm. The first and second attachment mechanisms are configured to detachably couple to first and second apertures, respectively, of a pluggable module.

EXAMPLE EMBODIMENTS

The present disclosure relates to a removable pull tab for a pluggable module. A pull tab, also known as a pull handle or pull release, is used for inserting a pluggable module into and/or removing the pluggable module from a slot in, for example, a rack/cage. A pull tab may be used to provide a visual aid/indicator of, for example, a particular customer, wavelength, function, etc. associated with the corresponding pluggable module. That is, the pull tab may enable rapid identification of the pluggable module to which it is attached. Conventional pull tabs lack modularity and can only be removed from a pluggable module with considerable effort, namely partial disassembly of the pluggable module to which the pull tab is attached. The lack of modularity thus requires significant manual re-work upon reassignment of pluggable module, which introduces increased labor costs and can increase the risk of damaging the sensitive equipment. The lack of modularity in pull tabs also adds to supply-chain complexity.

Presented herein are removable pull tabs for use with pluggable modules. The pull tabs presented herein, sometimes referred to herein as “removable pull tabs,” have an arrangement that enables the removable pull tabs to be easily replaced or exchanged when, for example, a pluggable module has been reassigned to another customer or task in a manner that avoids having to manually disassemble the pluggable module. As such, the removable pull tab facilitates, for example, swapping/exchanging of a color-coded portion of a pull tab, which identifies features of a pluggable module, such as reach or customer specifics, without requiring disassembly of the pluggable module.

Moreover, a removable pull tab in accordance with certain embodiments presented herein includes a locking mechanism that attaches a rubber or plastic portion handle portion of the pull tab to the pluggable module. When the pluggable module is in use (e.g., positioned in a slot), the locking mechanism is not exposed, therefore minimizing the chance that the pull tab could be accidentally removed. The locking mechanism can include a snap-fit, a sliding joint, a locking feature, and/or a surface friction, barb/hook feature.

Embodiments are now described in detail with reference to several figures. It is to be appreciated that any depicted measurements or dimensions are merely illustrative and that pull tabs and transceiver modules in accordance with embodiments presented herein may have a number of different shapes, sizes, and/or arrangements. For purposes of illustration, the embodiments are primarily described below with reference to a particular type of pluggable module, namely a pluggable transceiver module (transceiver module). It is to be appreciated that specific reference to a transceiver module is merely illustrative and that embodiments presented herein may be used with other types of pluggable modules.

FIG. 1 is a diagram depicting an isometric view of a transceiver module 125 and a pull tab 100, in accordance with an example embodiment. As depicted, pull tab 100 is shown adjacent to, but detached from, the transceiver module 125. Transceiver module 125 may be a module assembled from multiple components that is configured to perform one or more functions (e.g., conversion of light signals to electrical signals). When in use, transceiver module 125 may be positioned in a slot of a rack/cage.

As described in further detail below, pull tab 100 and transceiver module 125 are configured for detachable mechanical coupling/attachment with one another. As used herein, “detachable mechanical coupling/attachment” means that pull tab 100 and transceiver module 125 can be physically mechanically connected to one another, or physically mechanically disconnected from one another, without the need to disassemble pull tab 100, slide 150, and/or transceiver module 125. For example, in certain embodiments, transceiver module 125 includes a slide 150 that provides one or more points of attachment for pull tab 100.

Slide 150 includes slide arms 151, and slide 150 and/or slide arms 151 may be formed from a rigid or semi-rigid material, such as aluminum or a similar material. Slide arms 151 each include an aperture 155 that, as described further below, facilitates attachment of pull tab 100 thereto.

FIG. 2 is a diagram depicting an isometric view of the pull tab 100, in accordance with an example embodiment, while FIG. 3 is a diagram depicting an isometric view of a pull tab 100 with interior details shown. As depicted in FIGS. 2 and 3, pull tab 100 includes a handle 101 and two attachment arms 102 that include attachment (distal) ends 103. In certain embodiments, the handle 101 and attachment arms 102 (including attachment ends 103) of pull tab 100 collectively form a “body” 110 of the pull tab 100. The body 110 is generally formed from a resiliently flexible material (e.g., a material possessing a degree of flexibility). For example, the body such as a plastic material, thermoplastic vulcanizates (TPV) or other thermoplastic elastomer (TPE), a rubber material, and the like. In some embodiments, pull tab 100 includes a portion formed from Santoprene™. Santoprene™ is a trademark of Exxon Mobile.

As shown, each attachment end 103 includes an attachment mechanism 104 for attaching the attachment end 103 to slide 150 of transceiver module 125. As described further below, each attachment mechanism 104 may be formed from a rigid or semi-rigid material and is configured for attachment to the transceiver module 125. As shown in FIGS. 2 and 3, the attachment ends 103 each include an opening 113 that facilitates attachment of the attachment mechanisms 104 to the slide 150 (FIG. 1) of transceiver module 125. In certain embodiments, the material of each attachment end 103 of pull tab 100 is molded around a respective attachment mechanisms 104. In some embodiments, the material of attachment ends 103 is a flexible or semi-flexible material, and the attachment mechanisms 104 are rigid or semi-rigid.

FIG. 4 is a diagram depicting one embodiment of attachment mechanism 104 of pull tab 100, shown separate from body 110 in accordance with an example embodiment. As depicted, attachment mechanism 104 includes a hook 105, a body 106, body extensions 111, and openings 107. Attachment mechanism 104 may be composed of a metal or similar material, such as beryllium copper, stainless steel, and the like. Body 106 is generally disposed in a plane 114, and body extensions 111 may include planar sections that are substantially parallel to, but spaced from, plane 114 of body 106.

Pull tab 100 may be molded around attachment mechanisms 104. In certain embodiments, openings 107 may be provided in attachment mechanism 104 to enable the material of the attachment ends 103 to pass there through during the molding process, thereby ensuring that attachment mechanisms 104 are integrated with, and thereby retained within, attachment ends 103. Openings 107 may be provided in body 106 and/or body extensions 111 to facilitate integration of the attachment mechanisms 104 with the attachment ends 103 during the molding process.

Hook 105 is a semi-flexible projection that enables attachment and de-attachment of pull tab 100 from a slide 150 of a transceiver module 125 (shown in FIGS. 1 and 5). More specifically, hook 105 may include one or more angled or curved sections extending away from plane 114 of body 106. In general, hook 105 is configured to flex in a direction that is generally transverse to plane 114 of body 106 (i.e., flex towards and away from plane 114). However, hook 105 is resiliently biased (spring-biased away from plane 114) to a first configuration/position (shown in FIG. 4) when hook 105 is not being subjected to a force that depresses hook 105 toward the plane of body 106. That is, the material of hook 105 may possess a degree of elasticity that causes hook 105 to return to a position in which hook 105 is not substantially coplanar with the plane of body 106 when hook 105 is not being subjected to a force that depresses hook 105 toward the plane of body 106.

FIG. 5 is a diagram illustrating pull tab 100 mechanically coupled/attached to slide 150 of transceiver module 125. It should be appreciated that, for purposes of illustration, the body 110 of pull tab 100 is shown in FIG. 5 as being substantially transparent (opaque) so as to illustrate the details of attachment mechanisms 104 and the attachment with slides 150. Additionally, also for ease of illustration, the transceiver module 125 is omitted from FIG. 5.

In operation, pull tab 100 is attached to transceiver module 125 by first inserting slide arms 151 into openings 113. When slide arms 151 enter openings 113, hooks 105 initially contact slide arms 151 and hooks 105 are depressed (forced to flex towards plane 114 of body). As noted, slide arms 151 include apertures 155. As slide arms 151 are advanced into the openings 113, hooks 105 will eventually become aligned with apertures 155. When hooks 105 become aligned with apertures 155, the spring bias of hooks 105 cause hooks 105 to return (spring back) to the first configuration (e.g., hooks 105 return to the first configuration that is not substantially coplanar with plane 114 of body 106, as shown in FIG. 4) and thereby enter apertures 155. When hooks 105 enter apertures 155, slide arms 151 (slide 150) are locked within body 110. That is, hooks 105 and apertures 155 cooperate to prevent longitudinal movement of slide arms 151 relative to pull tab 100, absent application of an external force.

FIG. 6A is a diagram depicting removal of pull tab 100 with a removal tool 156, in accordance with an example embodiment. Again, for purposes of illustration, the body 110 of pull tab 100 is shown in FIG. 6A as being substantially transparent (opaque) so as to illustrate the details of attachment mechanisms 104 and the detachment from slide 150. More specifically, in the example of FIG. 6A, a removal tool 156 is configured to slide into an opening 113 between the material of pull tab 100 and a slide arm 151 in order to depress hook 105 so that hook 105 disengages from aperture 155. When a hook 105 is depressed in this manner, the corresponding slide arm 151 can move longitudinally relative to pull tab 100. As such, the corresponding slide arm 151 may be removed from pull tab 100 (from opening 113) by applying a force to pull tab 100 that places attachment arms 102 in tension, thus pulling pull tab 100 away from transceiver module 125.

FIG. 6A illustrates the detachment of one slide arm 151 from one attachment mechanism 104. It is to be appreciated that substantially the same process may be performed each of the slide arms and corresponding attachment mechanisms (e.g., with reference to both of the first and second attachment arms 102).

FIG. 6B is a diagram depicting removal of a pull tab 100 with a removal tool 157, in accordance with another example embodiment. Again, for purposes of illustration, the body 110 of pull tab 100 is shown in FIG. 6A as being substantially transparent (opaque) so as to illustrate the details of attachment mechanisms 104 and the detachment from slides 150. More specifically, in the example of FIG. 6B, removal tool 157 is configured to apply a transverse force through the material of pull tab 100 in order to depress hook 105 so that hook 105 disengages from aperture 155. When a hook 105 is depressed in this manner, the corresponding slide arm 151 can move longitudinally relative to pull tab 100. As such, slide arm 151 may be removed from pull tab 100 (from opening 113) by applying a force to pull tab 100 that places attachment arms 102 in tension, thus pulling pull tab 100 away from transceiver module 125.

In some embodiments, removal tool 157 passes through (i.e. pierces) the material of pull tab 100 (e.g., in a destructive manner). In some embodiments, removal tool 157 non-destructively deforms the material of pull tab 100 as a force is applied to depress hook 105.

FIGS. 7A and 7B are diagram depicting isometric views of a slide 250 of a transceiver module and a pull tab 200, in accordance with an example embodiment. As depicted, pull tab 200 is shown adjacent to, but detached from, the slide 250 and the corresponding transceiver module has been omitted. The transceiver module may be a module assembled from multiple components that is configured to perform one or more functions (e.g., conversion of light signals to electrical signals). When in use, the transceiver module may be positioned in a slot of a rack/cage.

As described in further detail below, pull tab 200 and slide 250 of the transceiver module are configured for detachable mechanical coupling/attachment with one another (e.g., physically mechanically connected to one another, or physically mechanically disconnected from one another, without the need to disassemble pull tab 200, slide 250, and/or the transceiver module 125).

As depicted in FIGS. 7A and 7B, pull tab 200 includes a handle 201 and two attachment arms 202 that include attachment (distal) ends 203. In certain embodiments, the handle 201 and attachment arms 202 (including attachment ends 203) of pull tab 200 collectively form a “body” 210 of the pull tab 200. The body 210 is generally formed from a resiliently flexible material (e.g., a material possessing a degree of flexibility). For example, the body such as a plastic material, thermoplastic vulcanizates (TPV) or other thermoplastic elastomer (TPE), a rubber material, and the like. In some embodiments, pull tab 200 includes a portion formed from Santoprene™. Santoprene™ is a trademark of Exxon Mobile.

As shown, each attachment end 203 includes a cavity 212 for attaching the attachment end 203 to slide arms 251 of slide 250. As described further below, each attachment arm 202, (including attachment ends 203) may be formed from a rigid or semi-rigid material and is configured for attachment to the transceiver module via slide 250. As shown in FIGS. 7A and 7B, the attachment ends 203 each include a cavity 212 that facilitates attachment of the attachment ends 103 to the slide arms 251 of slide 250, which in turn is attached to transceiver module 125 (for ease of illustration, the transceiver module is omitted from FIGS. 7A and 7B).

In the embodiment depicted in FIGS. 7A and 7B, slide 250 includes slide arms 251 configured to mate with cavities 212 inside of attachment (distal) ends 203 of pull tab 200. Cavities 212 may be open at the bottoms of attachment ends 203 to permit insertion of slide arms 251. An aperture 261 may be provided in one or more slide arms 251 through which a knob 209 of the interior surface of attachment end 203 may pass. Additionally or alternatively, barbs 262 may be provided on the sides of slide arms 251 that provide additional friction when in contact with the interior surface of cavities 212. In the depicted embodiment shows one attachment end 203 that includes knob 209 (and a corresponding slide arm 251 that includes aperture 261), and another attachment end 203 without a knob 209, it should be appreciated that in other embodiments, both attachment ends 203 may utilize the knob 209—aperture 261 locking mechanism or both attachment ends 203 may utilize the locking mechanism provided by barbs 262.

FIG. 8 is a diagram depicting an isometric view of a slide 250 of a transceiver module and a pull tab 200 with interior details shown, in accordance with an example embodiment. As depicted, when pull tab 200 is attached to slide 250, knob 209 may pass through aperture 261 and/or barbs 262 may penetrate into the interior material of one or more attachment ends 203 of pull tab 200. Pull tab 200 may be destructively removed from slide 250 in this example embodiment, e.g., via tearing of the material of attachment ends 203 of pull tab 200.

FIG. 9A is a diagram depicting a side view of a slide 250 of a transceiver module and a pull tab 200, in accordance with an example embodiment. As depicted, when pull tab 200 is attached to slide 250, knob 209 passes through aperture 261 of slide arm 251 to couple the slide arms 251 to the attachment ends 203. Additionally or alternatively, barbs 262 may penetrate into the material of one or more attachment ends 203. In some embodiment, one or more attachment ends 203 include recesses that are configured to mate with barbs 262.

FIG. 9B is a diagram depicting a side view of a slide of a transceiver module transceiver and a pull tab, in accordance with an example embodiment. As depicted, slide arm 251 of slide 250 includes barbs 262 that penetrate into the material of attachment end 203.

FIG. 10 is a flow chart depicting a method 300 of removing a pull tab 100 from a transceiver module 125, in accordance with an embodiment of the present invention.

An assembly of a pull tab and transceiver module is provided at operation 310. An assembly of pull tab 100 and transceiver module 125 may be provided in which attachment arms 102 of pull tab terminate in attachment ends 103 and include attachment mechanisms 104. Pull tab 100 may be detachably coupled to transceiver module 125 when hooks 105 of attachment mechanisms 104 are inserted into apertures 155 of slide 150.

Forces are applied to disengage the attachment mechanisms at operation 320. Forces may be applied to hooks 105 to cause hooks 105 to move in a direction toward the plane of the body 106 of attachment mechanisms 104, thereby disengaging hooks 105 from apertures 155 of slide 150. In some embodiments, the forces are applied to hooks 105 using an instrument such as removal tool 156, which is inserted between the material of attachment ends 103 and slide 150 in order to depress hook 105 so that hook 105 disengages from aperture 155. In some embodiments, an instrument such as removal tool 157 applies a force through the material of pull tab 100 in order to depress hook 105 so that hook 105 disengages from aperture 155. The force may be transmitted through the material of pull tab 100 or an instrument may pierce the material of pull tab 100 in order to contact each hook 105.

A force is applied to detach the pull tab at operation 330. When hooks 105 are disengaged from apertures 155, a force may be applied to pull tab 100 to place attachment arms 102 in tension, enabling pull tab 100 to be detached and separated from transceiver module 125. For example, a force may be applied at handle 101. Transceiver module 125 may be provided with a force in the opposite direction to enable detachment of pull tab 100. In one form, a pull tab is provided comprising: a handle, a first attachment arm extending from the handle, a second attachment arm extending from the handle substantially parallel to the first attachment arm, a first attachment mechanism disposed at a distal end of the first attachment arm, and a second attachment mechanism disposed at a distal end of the second attachment arm, wherein the first and second attachment mechanisms are configured to detachably couple to a corresponding first and second aperture, respectively, of a transceiver module.

In another form, the first and second attachment mechanisms each comprise a hook that is configured to engage with the corresponding first and second apertures in a slide of the transceiver module to detachably couple the pull tab to the transceiver module. In a further form, the hooks of the first and second attachment mechanisms snap-fit into the corresponding first and second apertures. In a further form, the pull tab is detached from the transceiver module by depressing the hooks of the first and second attachment mechanisms to disengage the hooks from the corresponding first and second apertures.

In one form, the first attachment arm and the second attachment arm are comprised of a flexible material. In another form, the flexible material comprises a thermoplastic vulcanizate.

In one form, the first insert and the second insert are each comprised of a metal selected from a group of: beryllium copper, and stainless steel.

In one form, the first and second attachment mechanisms each include one or more openings, wherein a portion of the first attachment arm passes through the one or more openings of the first attachment mechanism and wherein a portion of the second attachment arm passes through the one or more openings of the second attachment mechanism.

In one form, applying a force to place the first attachment arm and the second attachment arm in compression detachably couples the pull tab to the transceiver module.

In one form, a method of removing a pull tab from a transceiver module is provided, the method comprising: providing a pull tab that is detachably coupled to a transceiver module, wherein the pull tab comprises a handle, a first attachment arm extending from the handle, a second attachment arm extending from the handle substantially parallel to the first attachment arm, a first attachment mechanism disposed at a distal end of the first attachment arm, and a second attachment mechanism disposed at a distal end of the second attachment arm, and wherein the first and second attachment mechanisms are detachably coupled to a corresponding first and second aperture, respectively, of a transceiver module, applying a first force to disengage the first attachment mechanism from the first aperture and applying a second force to disengage the second attachment mechanism from the second aperture, and while the first force and the second force are applied, applying a third force to the pull tab to place the first attachment arm and the second attachment arm in tension, wherein applying the third force causes the pull tab to detach from the transceiver module.

In another form, the first attachment mechanism comprises a first hook and the second attachment mechanisms comprises a second hook, and the first force is applied to the first hook to disengage the first attachment mechanism and the second force is applied to the second hook to disengage the second attachment mechanism.

In another form, the first force and the second force are each applied using a removal tool to apply pressure to external portions of the first attachment mechanism and the second attachment mechanism.

In another form, the first force is applied by inserting a first removal tool between the first attachment arm and the transceiver module, and the second force is applied by inserting a second removal tool between the second attachment arm and the transceiver module.

In one form, a pull tab is provided, comprising a handle, a first attachment arm extending from the handle, a second attachment arm extending from the handle substantially parallel to the first attachment arm, a first cavity disposed at a distal end of the first attachment arm, and a second cavity disposed at a distal end of the second attachment arm, wherein the first cavity and the second cavity are adapted to mate with a corresponding first projection and second projection of a slide of a transceiver module, and wherein the pull tab is attachable to the transceiver module by inserting the first slide arm into the first cavity and inserting the second slide arm into the second cavity.

In another form, the first attachment arm and the second attachment arm are comprised of a flexible material. In a further form, the flexible material comprises a thermoplastic vulcanizate. In another form, the flexible material is penetrable by one or more barbs of the first projection and the second projection that penetrate into the flexible material when the first cavity and the second cavity are mated with the first projection and second projection.

In another form, the pull tab locks onto a slide of the transceiver module when the first projection is inserted into the first cavity and the second projection is inserted into the second cavity.

In another form, a knob disposed in each of the first cavity and the second cavity, wherein each knob is configured to mate with a corresponding first and second aperture, respectively, of a transceiver module.

In another form, the first and second cavity are disposed in a corresponding pair of extensions extending substantially orthogonal to the first and second attachment arms.

The descriptions of the various embodiments have been presented for purposes of illustration, but are not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein was chosen to best explain the principles of the embodiments, the practical application or technical improvement over technologies found in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein. 

What is claimed is:
 1. A pull tab comprising: a handle; a first attachment arm extending from the handle; a second attachment arm extending from the handle substantially parallel to the first attachment arm; a first attachment mechanism disposed at a distal end of the first attachment arm; and a second attachment mechanism disposed at a distal end of the second attachment arm, wherein the first and second attachment mechanisms are configured to detachably couple to a corresponding first and second aperture, respectively, of a pluggable module.
 2. The pull tab of claim 1, wherein the first and second attachment mechanisms each comprise a hook that is configured to engage with the corresponding first and second apertures in a slide of the pluggable module to detachably couple the pull tab to the pluggable module.
 3. The pull tab of claim 2, wherein the hooks of the first and second attachment mechanisms snap-fit into the corresponding first and second apertures.
 4. The pull tab of claim 3, wherein the pull tab is detached from the pluggable module by depressing the hooks of the first and second attachment mechanisms to disengage the hooks from the corresponding first and second apertures.
 5. The pull tab of claim 1, wherein the first attachment arm and the second attachment arm are comprised of a flexible material.
 6. The pull tab of claim 5, wherein the flexible material comprises a thermoplastic vulcanizate.
 7. The pull tab of claim 1, wherein the first insert and the second insert are each comprised of a metal selected from a group of: beryllium copper, and stainless steel.
 8. The pull tab of claim 1, wherein the first and second attachment mechanisms each include one or more openings, wherein a portion of the first attachment arm passes through the one or more openings of the first attachment mechanism and wherein a portion of the second attachment arm passes through the one or more openings of the second attachment mechanism.
 9. The pull tab of claim 1, wherein applying a force to place the first attachment arm and the second attachment arm in compression detachably couples the pull tab to the pluggable module.
 10. A method of removing a pull tab from a pluggable module, the method comprising: providing a pull tab that is detachably coupled to a pluggable module, wherein the pull tab comprises a handle, a first attachment arm extending from the handle, a second attachment arm extending from the handle substantially parallel to the first attachment arm, a first attachment mechanism disposed at a distal end of the first attachment arm, and a second attachment mechanism disposed at a distal end of the second attachment arm, and wherein the first and second attachment mechanisms are detachably coupled to a corresponding first and second aperture, respectively, of a pluggable module; applying a first force to disengage the first attachment mechanism from the first aperture and applying a second force to disengage the second attachment mechanism from the second aperture; and while the first force and the second force are applied, applying a third force to the pull tab to place the first attachment arm and the second attachment arm in tension, wherein applying the third force causes the pull tab to detach from the pluggable module.
 11. The method of claim 10, wherein the first attachment mechanism comprises a first hook and the second attachment mechanisms comprises a second hook, and wherein the first force is applied to the first hook to disengage the first attachment mechanism and the second force is applied to the second hook to disengage the second attachment mechanism.
 12. The method of claim 10, wherein the first force and the second force are each applied using a removal tool to apply pressure to external portions of the first attachment mechanism and the second attachment mechanism.
 13. The method of claim 10, wherein the first force is applied by inserting a first removal tool between the first attachment arm and the pluggable module, and wherein the second force is applied by inserting a second removal tool between the second attachment arm and the pluggable module.
 14. A pull tab comprising: a handle; a first attachment arm extending from the handle; a second attachment arm extending from the handle substantially parallel to the first attachment arm; a first cavity disposed at a distal end of the first attachment arm; and a second cavity disposed at a distal end of the second attachment arm, wherein the first cavity and the second cavity are adapted to mate with a corresponding first slide arm and second slide arm of a slide of a pluggable module, and wherein the pull tab is attachable to the pluggable module by inserting the first slide arm into the first cavity and inserting the second slide arm into the second cavity.
 15. The pull tab of claim 14, wherein the first attachment arm and the second attachment arm are comprised of a flexible material.
 16. The pull tab of claim 15, wherein the flexible material comprises a thermoplastic vulcanizate.
 17. The pull tab of claim 15, wherein the flexible material is penetrable by one or more barbs of the first slide arm and the second slide arm that penetrate into the flexible material when the first cavity and the second cavity are mated with the first slide arm and second slide arm.
 18. The pull tab of claim 14, wherein the pull tab locks onto a slide of the pluggable module when the first slide arm is inserted into the first cavity and the second slide arm is inserted into the second cavity.
 19. The pull tab of claim 14, further comprising a knob disposed in each of the first cavity and the second cavity, wherein each knob is configured to mate with a corresponding first and second aperture, respectively, of the first slide arm and a second slide arm.
 20. The pull tab of claim 14, wherein the first and second cavities are disposed in a corresponding pair of extensions extending substantially orthogonal from the distal ends of the first and second attachment arms. 